KR100595726B1 - Apparatus for controlling pressure of scroll compressor - Google Patents

Abstract

The pressure regulating device of the scroll compressor of the present invention is installed in the refrigerant flow passage formed in communication with the high pressure portion and the low pressure portion, and a coolant inlet hole through which the refrigerant gas flows in the high pressure portion is formed on the upper surface, and the refrigerant gas is discharged to the low pressure portion on the side surface. A valve case in which a refrigerant discharge hole is formed to be formed; A piston valve slid along the longitudinal direction of the valve case to open and close the refrigerant inlet hole, the outer circumferential surface of which is formed in a rectangular type, and in linear contact with the inner circumferential surface of the valve case; A spring installed inside the valve case to elastically support the piston valve to be in close contact with an inner surface of the valve case in which the refrigerant inlet hole is formed; It is configured to operate in such a way that the piston valve is in close contact with the inner surface of the refrigerant inlet hole formed in the valve case in accordance with the pressure of the low pressure portion and adjusts the pressure, it is not necessary to precisely process the installation portion as in the prior art, The module is modular and can be easily installed at the installation site. In addition, since the piston valve slides in a line contact with the inner surface of the valve case, there is no malfunction caused by frictional resistance.

Description

Pressure regulating device of scroll compressor {APPARATUS FOR CONTROLLING PRESSURE OF SCROLL COMPRESSOR}

1 is a longitudinal sectional view showing a compression mechanism of a conventional scroll compressor.

Figure 2 is a longitudinal sectional view showing the operation of the valve in a conventional scroll compressor.

Figure 3 is a longitudinal sectional view of a scroll compressor having a pressure regulator according to the present invention.

Figure 4 is a perspective view of a partially cut pressure regulator according to the present invention.

5 is a longitudinal sectional view of FIG. 4;

6 is a cross-sectional view taken along the line AA ′ of FIG. 5.

Figure 7 is a longitudinal sectional view showing the operation of the pressure regulator according to the present invention.

Figure 8 is a longitudinal cross-sectional view showing another installation example of the pressure regulator of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

113: low pressure section 114: high pressure section

121: valve case 121a: refrigerant inlet hole

121b: refrigerant discharge hole 122: piston valve

123: spring

The present invention relates to a pressure regulating device of a scroll compressor, and more particularly, to a pressure regulating device of a scroll compressor that can be easily installed as well as pressure adjustment can be made accurately.

Scroll compressors are mainly used in compressors of air conditioners and freezers, which are installed inside a sealed container, are formed to protrude spiral wraps, and are rotated by a motor and the spiral wraps against the swing scrolls. It is formed so that the fixed scroll is fixed to the upper frame, the turning scroll is rotated and the compression space formed between the lap of the swivel scroll and the lap of the fixed scroll gradually becomes smaller so that the refrigerant gas flowing into the compression space It is to be discharged after being compressed.

1 is a vertical cross-sectional view showing the structure of the compression mechanism of the conventional scroll compressor, as shown in the conventional scroll compressor, the upper frame (2) is installed inside the sealed container (1), the upper frame (2) The rotating shaft 3 is provided so as to be rotatable in the vertical direction through the center of the head.

In addition, an eccentric portion 4 is formed at an upper end of the rotary shaft 3 so as to be eccentrically away from the axial center of the rotary shaft 1, and the sliding bush 5 is coupled to the eccentric portion 4, and the sliding The eccentric portion 4, to which the bush 5 is coupled, is inserted into the boss portion 7 formed at the lower end portion of the swinging scroll 6, and inside the pocket 2a formed to be recessed in the upper surface of the upper frame 2. Are positioned to be located.

In addition, a fixed scroll 8 fixed to the upper frame 2 is fixedly installed on the upper side of the swing scroll 6, and a low pressure inside the sealed container 1 is fixed to the outside of the fixed scroll 8. The high and low pressure separating plate 11 is provided to separate the portion 9 and the high pressure portion 10. The fixed scroll 8 bypasses the high pressure refrigerant gas of the high pressure portion 10 to the low pressure portion 9. Pressure regulator 20 is installed to adjust the pressure.

The pressure regulating device 20 has an intermediate pressure chamber 21 formed at one side of the fixed scroll 8 so as to communicate with the low pressure portion, and the upper side of the intermediate pressure chamber 21 is connected to the high pressure part by the high pressure secondary communication passage 22. It is in communication with (10), the lower side is in communication with the compression space 13 by the compression chamber communication flow path 23, the inside is supported by the spring 24, sliding in the interior of the intermediate pressure chamber 21, the refrigerant The valve 25 which regulates a flow path so that a gas is bypassed is provided.

In the drawings, reference numerals 6a and 8a denote wraps, and 14 denotes Oldhamling.

In the conventional scroll compressor having the structure described above, when the rotary shaft 3 rotates by the rotation of the motor, the eccentric portion 4 which is eccentrically formed at the upper end of the rotary shaft 3 is also inserted with the sliding bush 5. By rotating the rotating scroll 6 coupled to prevent rotation by the old dam ring 14 is rotated in the state is made of the compression of the refrigerant gas flowing into the compression space 13 from the low pressure section (9), and The compressed refrigerant gas is discharged to the high pressure unit 10 through the discharge hole.

When the refrigerant gas is not sucked into the low pressure part 9 due to a flow path blockage or the like, the internal pressure of the intermediate pressure chamber 21 is smaller than the combined force of the gas pressure of the low pressure part 9 and the force of the spring 24. In this case, as shown in FIG. 2, the valve 25 is slid inward and the refrigerant gas of the high pressure part 10 is discharged to the low pressure part 10 through the high pressure part communication passage 22 and the intermediate pressure chamber 21 as indicated by arrows. As a result, the low pressure portion 10 is in a vacuum state, thereby preventing the compressor from being damaged by the discharge at the terminal portion.

However, in the conventional scroll compressor configured as described above, the pressure regulating device 20 for adjusting the pressure at the occurrence of the clogging of the high pressure unit (20) is connected to the upper side of the intermediate pressure chamber 21 through the high pressure side communication passage 22 formed therein. A large friction force acts between the outer circumferential surface of the valve 25 and the intermediate pressure chamber 21 by the pressure Pd acting on the side surface of the valve 25 at 10), and the frictional force acts as a normal operation of the valve 25. There was a problem that often does not occur.

In addition, the pressure regulator 20 as described above has a problem that installation is difficult because the intermediate pressure chamber 21 formed in the fixed scroll 8 must be precisely processed to slide in a state in which the valve 25 is in close contact.

SUMMARY OF THE INVENTION An object of the present invention devised in view of the above problems is to provide a pressure regulating device of a scroll compressor that does not have various problems as described above.

It is another object of the present invention to provide a pressure regulating device of a scroll compressor which can operate a stable valve.

Still another object of the present invention is to provide a pressure regulating device of a scroll compressor suitable for modularizing the device so that the installation can be easily performed.

In order to achieve the object of the present invention as described above

It is installed in the refrigerant flow path formed in communication with the high pressure section and the low pressure section, the upper surface is formed with a refrigerant inlet hole through which the refrigerant gas flows into the high pressure side, the valve case has a refrigerant discharge hole formed to discharge the refrigerant gas to the low pressure section Wow;

A piston valve slid along the longitudinal direction of the valve case to open and close the refrigerant inlet hole, the outer circumferential surface of which is formed in a rectangular type, and in linear contact with the inner circumferential surface of the valve case;
A spring installed inside the valve case to elastically support the piston valve to be in close contact with an inner surface of the valve case in which the refrigerant inlet hole is formed;

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Provided is a pressure regulating device of a scroll compressor, characterized in that the configuration.

Hereinafter, with reference to the embodiment of the accompanying drawings, the pressure regulating device of the present invention scroll compressor configured as described above in detail as follows.

Figure 3 is a longitudinal sectional view of a scroll compressor having a pressure regulating device according to the present invention, Figure 4 is a perspective view showing a partially cut structure of the pressure regulating device according to the present invention, Figure 5 is a longitudinal sectional view of Figure 4, Figure 6 is a cross-sectional view taken along the line AA ′ of FIG. 5.

As shown in the drawing, the scroll compressor with a pressure regulating device according to the present invention has an upper frame 102 fixed to an inner upper portion of the sealed container 101, and a lower frame 103 to an upper frame 102 at the lower portion thereof. ) Is fixed at a predetermined height difference, and a motor 106 composed of a stator 104 and a rotor 105 is installed between the upper frame 102 and the lower frame 103.

In addition, a rotary shaft 107 having a flow path 107b therein is press-fitted into the shaft hole 105a formed in the vertical direction at the center of the rotor 105, and an upper end portion of the rotary shaft 107 is pressed into an upper frame ( It is rotatably inserted into the support hole 102a of 102, and the lower end part is rotatably inserted into the support hole 103a of the lower frame 103.

The upper side of the upper frame 102 is fixed to the upper frame 102 and the fixed scroll 108 is formed so that the spiral wrap 108a protrudes, the fixed scroll 108 and the upper frame 102 There is provided a compression mechanism section 110 composed of a swinging scroll 109 which is rotatably coupled between the helical wraps 109a and is formed to protrude.

In addition, an eccentric portion 107a formed to be eccentric to an upper end of the rotating shaft 107 is inserted into and coupled to the coupling hole 111a of the boss 111 formed at the lower end of the pivoting scroll 109, and the eccentric portion ( A ring-shaped sliding bush 112 is coupled to 107a, and the eccentric portion 107a, the sliding bush 112, and the boss portion 111 are formed on the upper surface of the upper frame 102 at a predetermined depth 102b. It is arranged inside of.

In addition, a high and low pressure separation plate 115 is installed outside the fixed scroll 108 to separate the inside of the sealed container 101 into the low pressure unit 113 and the high pressure unit 114. The refrigerant passage 115 is formed in communication with the high pressure portion 114 and the low pressure portion 113, the refrigerant passage 115 in the refrigerant passage 115 when the flow path clogging occurs, the refrigerant gas from the high pressure portion 114 to the low pressure portion 113 A pressure regulator 120 is provided to control the pressure so that the low pressure portion 113 does not become a vacuum state by bypass.

The pressure regulating device 120 is installed on the refrigerant passage 115 and has a valve case 121 having a refrigerant inlet hole 121a and a refrigerant discharge hole 121b formed therein, and the inside of the valve case 121. A piston valve 122 that is slidably installed in the valve inlet 121 to open and close the refrigerant inlet 121a, and is installed inside the valve case 121 so that the piston valve 122 opens the refrigerant inlet 121a. It is composed of a spring 123 to elastically support the piston valve 122 to be closed.

The valve case 121 has a circular cylindrical shape, and is fixed to the groove portion 115a formed at the outlet side of the low pressure portion 113 of the refrigerant passage 115, and the valve case 121 is formed on the upper surface of the valve case 121. 121. A refrigerant inlet hole 121a communicating with the inside of the high pressure part 114 is formed, and a plurality of refrigerant discharge holes 121b communicating with the inside of the valve case 121 and the low pressure part 113 are formed at the lower end side. Formed.

As shown in FIG. 6, the piston valve 122 has a rod shape having a hexagonal cross-sectional shape, and is slid to minimize frictional resistance in a line contact state within the circular cylindrical valve case 121. The refrigerant inlet hole 121a is opened and closed.

The spring 123 is a coil spring, usually extended by a spring force and elastically pushes the piston valve 122 in the longitudinal direction so as to be in close contact with the inner surface of the valve case 121 in which the refrigerant inlet hole 121a is formed. When the pressure of the low pressure part 113 falls below a predetermined pressure, the high pressure part 114 has a spring force that can be contracted by the pressure applied to the piston valve 122 through the refrigerant inlet hole 121a.

In the figure, reference numeral 108b is a refrigerant suction hole, 108c is a discharge hole, 131 is a suction pipe, and 132 is a discharge pipe.

The operation of the scroll compressor having the oil supply structure of the present invention configured as described above is as follows.

When the power is applied, when the rotor 105 of the motor 106 rotates, the rotating shaft 107 is rotated by the rotation of the rotor 105, and the turning scroll coupled to the upper end of the rotating shaft 107 ( 109) Make a turn.

As described above, the pivoting movement of the pivoting scroll 109 is a pivoting movement with an eccentric distance, which is the distance from the center of the rotational shaft 107 to the center of the eccentric portion 107a, as the turning radius. The wrap 109a of 109 is pivoted in engagement with the wrap 108b of the fixed scroll 108.

When the turning scroll 109 is turned as described above, the refrigerant gas flows into the sealed container 101 through the suction pipe 131, and the refrigerant gas is formed in the fixed scroll 108. 108a is introduced into the compression space formed between the lap 108b of the fixed scroll 108 and the lap 109a of the swing scroll 109, and the swivel motion of the swing scroll 109 continuously As the volume is reduced, the refrigerant gas is compressed, and the refrigerant gas, which is moved to the center portion and compressed, is discharged to the outside through the discharge hole 108b of the fixed scroll 108.

When the refrigerant gas is compressed normally as described above, the pressure regulating device 120 is in a state as shown in FIG.

That is, the sum of the force (Fs) applied to the piston valve 122 and the force (Fspring) of the spring 123 through the refrigerant discharge hole 121b in the low pressure portion 113 is the discharge gas of the high pressure portion 114 is the refrigerant The refrigerant inlet hole 121a formed in the valve case 121 by sliding in the longitudinal direction of the spring 123 is greater than the force Fd applied to the piston valve 122 through the inlet hole 121a. In close contact with the inner surface of the high pressure portion 114 to maintain a state in which the refrigerant gas is bypassed toward the low pressure portion 113.

When the state in which the refrigerant gas does not flow into the low pressure portion 113 due to the passage blockage or the like in the above state occurs, the pressure regulating device 120 is piston through the refrigerant discharge hole 121b as shown in b) of FIG. 7. The sum of the force Fs applied to the valve 122 and the force Fspring of the spring 123 is the force exerted by the discharge gas of the high pressure part 114 to the piston valve 122 through the refrigerant inlet hole 121a ( Fd) is smaller than the piston valve 122 is slid in the direction of the spring 123 and the spring 123 is contracted, the refrigerant gas of the high pressure portion 114 through the refrigerant inlet hole 121a as indicated by the arrow After flowing into the valve case 121 and discharged to the low pressure unit 113 through the refrigerant discharge hole 121b, the pressure is adjusted so that the inside of the low pressure unit 113 does not become a vacuum state.

In the above embodiment, the pressure regulating device 120 has been described as an example installed on the fixed scroll 108, but is not limited thereto, and separates the high pressure portion 114 and the low pressure portion 113 as shown in FIG. It may be installed on the high and low pressure separating plate 115.

That is, the pressure regulating device 120 according to the present invention can be easily installed anywhere where a flow path through which the high pressure part 114 and the low pressure part 113 communicate can be formed regardless of the installation place.

As described above in detail, the pressure regulating device of the scroll compressor of the present invention operates so that the piston valve is in close contact with or falls on the inner surface of the refrigerant inlet hole formed in the valve case according to the pressure of the low pressure part, and thus adjusts the pressure. It is not necessary to process the installation part precisely, and the pressure regulating device is modular, so that the installation place can be easily installed.

In addition, since the piston valve slides in a line contact with the inner surface of the valve case, there is an effect that the malfunction due to the frictional resistance does not occur.

Claims (2)

It is installed in the refrigerant flow path formed in communication with the high pressure section and the low pressure section, the upper surface is formed with a refrigerant inlet hole through which the refrigerant gas flows into the high pressure side, the valve case has a refrigerant discharge hole formed to discharge the refrigerant gas to the low pressure section Wow; A piston valve slid along the longitudinal direction of the valve case to open and close the refrigerant inlet hole, the outer circumferential surface of which is formed in a rectangular type, and in linear contact with the inner circumferential surface of the valve case; A spring installed inside the valve case to elastically support the piston valve to be in close contact with an inner surface of the valve case in which the refrigerant inlet hole is formed; Pressure regulating device of the scroll compressor, characterized in that consisting of. delete

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